Image processing device, stationary object tracking system, image processing method, and recording medium

ABSTRACT

Provided is a technique for extracting information with which it is possible to track an object to be tracked, even if it happens that the object to be tracked is hidden or the like. This image processing device is provided with: a moving region identification unit which identifies, in a video, the image region associated with a moving object shown in the video; a stationary region identification unit which identifies, in the video, the image region associated with a stationary object shown in the video; and an extraction unit which extracts a feature of a partial image that is included in the image region associated with the stationary object, and that does not overlap the image region associated with the moving object.

This application is a National Stage Entry of PCT/JP2016/004626 filed onOct. 19, 2016, the contents of all of which are incorporated herein byreference, in their entirety.

TECHNICAL FIELD

The present disclosure relates to an image processing device, astationary object tracking system, an image processing method, and arecording medium.

BACKGROUND ART

One of typical behavior of a suspicious person in a public place isstationary behavior. The stationary behavior is considered as a sign ofa crime such as a pickpocket. Discovering the stationary behavior by asurveillance camera and the like conceivably leads to prevention ofcrime beforehand. However, a guard generally takes charge of monitoringa plurality of cameras and cannot carefully observe a specific camera.Thus, it is difficult for a person to discover, by a visual inspection,a stationary state that cannot be discovered unless a carefulobservation is made for a long time. Accordingly, a technology forautomatically detecting a stationary person from a video of asurveillance camera and the like is proposed.

For example, PTL 1 describes a technique of generating a backgroundimage based on a frequency of appearance of a pixel value from each of avideo captured in a long period and a video captured in a shorterperiod, and detecting an object being left behind by taking a differencebetween the two background images.

Further, various methods of tracking a person from an image areproposed. For example, PTL 2 describes a method of estimating a commonregion included in common between images acquired by different cameras,extracting a feature quantity from an image associated with theestimated common region, and associating the feature quantity with animage of a person being an object to be verified between a plurality oftime-series images. Further, PTL 3 describes a method of determiningwhether or not people in two images included in a detected human bodyregion is the same person.

Further, when tracking of an object to be tracked is performed,concealment of the object to be tracked by another object and the likelocated between a camera and the object to be tracked, and the like mayoccur. For example, PTL 4 describes a method of tracking an object to betracked when concealment occurs. PTL 4 describes a technique ofextracting an image of a constituent portion of an object being anobject to be monitored from an image by using an observation regionimage of a specific portion model that is obtained by excluding a regionconcealed by another specific portion model of the object from an entireregion image of the specific portion model of the object by using amodel for each of a plurality of constituent portions of the object.

Further, PTL 5 describes, as one example of a method of tracking aperson, using an image captured by a visible light camera and an imagecaptured by an infrared camera.

CITATION LIST Patent Literature

[PTL 1] Japanese Patent No. 5058010

[PTL 2] Japanese Unexamined Patent Application Publication No.2015-184810

[PTL 3] Japanese Patent No. 5523900

[PTL 4] Japanese Patent No. 5027741

[PTL 5] Japanese Unexamined Patent Application Publication No.2015-216635

SUMMARY OF INVENTION Technical Problem

A stationary person being an object to be tracked is highly likely to beconcealed by another person in an actual environment. However, thetechniques described in PTLs 2 and 3 do not disclose a method ofassociating a stationary person in a state where an object to be trackedis concealed.

Further, in a case where the same person stays stationary for aplurality of times, suspicion is further increased. In order to discoversuch a stationary person who stays stationary for a plurality of times,the stationary person needs to be continuously tracked. In the techniquedescribed in PTL 4, tracking is performed when at least a part of astationary person is continuously captured in a video. Therefore, whenconcealment or frame-out of such a stationary person occurs, tracking ofthe stationary person is interrupted, and a plurality of stationarystates of the stationary person may not be able to be detected in thetechnique of PTL 4.

Further, when using the technique of tracking an object to be trackedfor a use of general monitoring is considered, the method described inPTL 5 is not realistic in a point that new equipment needs to beintroduced in addition to an existing surveillance camera.

Therefore, when a technique related to PTLs 1 to 5 mentioned above isused for tracking a stationary person, many people and objects cross infront of a stationary person and conceal the stationary person in acrowded environment, and thus tracking may fail during the tracking. Forexample, when tracking continues in a case where a stationary person isnot included in a captured image due to occurrence of concealment of thestationary person, tracking of a stationary person may be performed byusing a feature of a person who is concealing the stationary person. Insuch a case, a feature different from an intended feature of thestationary person is verified with a feature of the stationary personsince a feature of a person different from the stationary person isused, and thus tracking of the stationary person may be interrupted.

The present disclosure has been made in view of the above-mentionedproblem, and an object thereof is to provide a technique of extractinginformation with which an object to be tracked can be tracked even whenconcealment and the like occur.

Solution to Problem

An image processing device according to one aspect of the presentdisclosure includes a moving region identification means for identifyinga region, in an image included in a video, of a moving object includedin the video, a stationary region identification means for identifying aregion, in the image, of a stationary object included in the video, andan extraction means for extracting a feature from a partial image of theimage that is a partial image included in a region of the stationaryobject and is included in a region that does not overlap a region of themoving object.

Further, a stationary object tracking system according to one aspect ofthe present disclosure includes the image processing device, a capturingmeans for capturing the video, and a verification means for performingverification of a stationary object included in the video by using afeature extracted by the extraction means.

Further, an image processing method according to one aspect of thepresent disclosure includes identifying a region, in an image includedin a video, of a moving object included in the video, identifying aregion, in the image, of a stationary object included in the video, andextracting a feature from a partial image of the image that is a partialimage included in a region of the stationary object and is included in aregion that does not overlap a region of the moving object.

Note that, a computer program that achieves the image processing device,the stationary object tracking system, or the image processing methodmentioned above by a computer, and a computer-readable non-temporaryrecording medium that stores the computer program are also included inthe scope of the present disclosure.

Advantageous Effects of Invention

The present disclosure is able to provide a technique of extractinginformation with which an object to be tracked can be tracked even whenconcealment and the like occur.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a block diagram illustrating one example of a configuration ofan image processing device according to a first example embodiment.

FIG. 2 is a block diagram illustrating one example of a configuration ofan extraction unit in the first example embodiment.

FIG. 3 is a diagram illustrating one example of an image frame capturedby a capturing device.

FIG. 4 is a diagram illustrating one example of a stationary regionidentified by a stationary region identification unit.

FIG. 5 is a diagram illustrating one example of a moving regionidentified by a moving region identification unit.

FIG. 6 is a diagram illustrating one example of a feature extractionregion determined by a feature extraction region determination unit.

FIG. 7 is a flowchart illustrating one example of a flow of processingof the image processing device according to the first exampleembodiment.

FIG. 8 is a block diagram illustrating one example of a configuration ofan image processing device according to a second example embodiment.

FIG. 9 is a block diagram illustrating one example of a configuration ofan extraction unit in the second example embodiment.

FIG. 10 is a flowchart illustrating one example of a flow of processingof the image processing device according to the second exampleembodiment.

FIG. 11 is a block diagram illustrating one example of a configurationof a network camera according to a third example embodiment.

FIG. 12 is a block diagram illustrating one example of a configurationof an image processing device according to a fourth example embodiment.

FIG. 13 is a diagram illustrating one example of a configuration of astationary object tracking system including the image processing deviceaccording to the fourth example embodiment.

FIG. 14 is a block diagram illustrating one example of a configurationof a stationary object tracking system according to a fifth exampleembodiment.

FIG. 15 is a block diagram illustrating one example of a configurationof a device in the stationary object tracking system according to thefifth example embodiment.

FIG. 16 is a diagram describing processing of a verification unit in thestationary object tracking system according to the fifth exampleembodiment.

FIG. 17 is a flowchart illustrating one example of a flow of theprocessing of the verification unit in the stationary object trackingsystem according to the fifth example embodiment.

FIG. 18 is a diagram exemplifying a hardware configuration of a computer(information processing device) that can achieve each of the exampleembodiments of the present disclosure.

EXAMPLE EMBODIMENT 1 First Example Embodiment 1.1 Outline

A first example embodiment of the present disclosure is described below.In an image processing device according to the first example embodiment,a region of a stationary object and a region of a moving object are eachidentified from an input video, and a portion of the region of thestationary object that does not overlap the region of the moving objectis then determined as a feature extraction region. Then, the imageprocessing device extracts a feature of the stationary object from thedetermined feature extraction region. In this way, for example, even inpresence of a moving object crossing in front of a stationary object,the image processing device can extract a feature of the stationaryobject without being affected by the moving object. Therefore, a featureextracted by the image processing device does not include a feature of amoving object. Thus, when verification of a stationary object isperformed by using the extracted feature, accuracy of verification ofthis stationary object is improved.

1.2 Configuration

FIG. 1 illustrates one example of a configuration of an image processingdevice 100 according to the present example embodiment. Hereinafter, theimage processing device 100 in the present example embodiment isdescribed with reference to FIG. 1. As illustrated in FIG. 1, the imageprocessing device 100 includes a moving region identification unit 110,a stationary region identification unit 120, and an extraction unit 130.

The image processing device 100 receives, from a capturing device suchas one or more cameras, an input of a video captured by the capturingdevice. A video input to the image processing device 100 includes aplurality of images (also referred to as image frames). The imageprocessing device 100 may be configured to accept one image frame as aninput. This capturing device may be, for example, a surveillance camerathat captures a video. More specifically, the capturing device may be anetwork camera including a capturing function and a communicationfunction. Note that, the capturing device may be a device including afunction of accumulating a captured video in a storage unit thereof.

The moving region identification unit 110 identifies a region, in animage frame included in a video input to the image processing device100, of a moving object included in the video. The moving regionidentification unit 110 identifies a region of a moving object by usingimage frames adjacent to each other in a time direction, for example. Inthis case, the moving region identification unit 110 compares a certainimage frame with an image frame immediately before the image frame amonga plurality of image frames included in a video, and identifies aposition (for example, a coordinate value on the certain image frame) ofa pixel having a great difference in pixel value, for example. Then, themoving region identification unit 110 identifies a region including aposition of a moving region identified from these two image frames as aregion of a moving object. The region of the moving object identified bythe moving region identification unit 110 is indicated by a set ofcoordinate values when, for example, a position of a pixel identified bythe moving region identification unit 110 is a coordinate value. Then,the moving region identification unit 110 associates informationindicating the region of the moving object (for example, a set ofcoordinate values) with information indicating the certain image frame(for example, an identifier such as a number of the image frame), andsupplies the information to the extraction unit 130.

Note that, a method of identifying a region of a moving object by themoving region identification unit 110 is not limited to this. The movingregion identification unit 110 may identify a region of a moving objectin a certain image frame by using an optical flow, for example. Further,the number of image frames used for identifying a region of a movingobject by the moving region identification unit 110 is not particularlylimited.

Hereinafter, a region of a moving object identified by the moving regionidentification unit 110 is also referred to as a moving region.

The stationary region identification unit 120 identifies a region, in animage frame included in a video input to the image processing device100, of a stationary object included in the video. Herein, thestationary object represents a person remaining within a predeterminedrange for longer than or equal to a predetermined period of time, forexample. Examples of the stationary object include a person standingstill in a certain position for longer than or equal to a predeterminedperiod of time, a person moving at less than or equal to a predeterminedspeed within a certain range for longer than or equal to a predeterminedperiod of time, and the like. The stationary region identification unit120 detects such a stationary object (also referred to as a stationaryperson) by using the method described in PTL 1, for example. Note that,a method of detecting a stationary object by the stationary regionidentification unit 120 is not limited to this, and any method may beused. For example, the stationary region identification unit 120 maydetect a stationary object by using information (for example, an opticalflow) used for identifying a moving object by the moving regionidentification unit 110.

The stationary region identification unit 120 identifies a regionincluding a detected stationary object (also referred to as a region ofa stationary object) in each image frame. The region of the stationaryobject is indicated by a set of coordinate values, for example. Forexample, when the stationary region identification unit 120 uses aplurality of image frames in order to detect a stationary object, thestationary region identification unit 120 may identify, in each of theimage frames, a position of a stationary object included in the imageframe, and identify a region including all of the identified positionsas a region of a stationary object. In this way, for example, even whena stationary object included in a certain image frame is concealed byanother object and thus an external shape of the stationary object isunclear on the certain image frame, the stationary region identificationunit 120 can estimate a position in which the stationary object islikely to be located. Then, the stationary region identification unit120 can identify a region of the stationary object on the image frameincluding this estimated position.

Note that, the stationary region identification unit 120 may detect astationary object from one image frame. For example, when the stationaryregion identification unit 120 detects a posture of a person included inone image frame and the posture is, for example, a seating posture, thestationary region identification unit 120 may detect the person as astationary object. Further, for example, when a posture of a personincluded in one image frame is, for example, a standing posture withboth legs closed, the stationary region identification unit 120 maydetect the person as a stationary object. In this way, a posture of astationary object obtained by detecting a person as the stationaryobject by the stationary region identification unit 120 is notparticularly limited.

A shape of a region of a stationary object identified by the stationaryregion identification unit 120 is not particularly limited, and may be,for example, a circle, an ellipse, and a polygon, or an external shapeof the stationary object.

The stationary region identification unit 120 associates informationindicating a region of a stationary object with information indicating acertain image frame, and supplies the information to the extraction unit130. Hereinafter, a region of a stationary object identified by thestationary region identification unit 120 is also referred to as astationary region.

The extraction unit 130 extracts a feature from a partial image of animage frame that is a partial image included in a region of a stationaryobject and is included in a region that does not overlap a region of amoving object. A function of the extraction unit 130 is furtherdescribed with reference to FIG. 2. FIG. 2 is a block diagramillustrating one example of a configuration of the extraction unit 130in the present example embodiment. As illustrated in FIG. 2, theextraction unit 130 in the present example embodiment includes a featureextraction region determination unit 131 and a feature extraction unit132.

The feature extraction region determination unit 131 receivesinformation indicating a moving region from the moving regionidentification unit 110 for each image frame. Further, the featureextraction region determination unit 131 receives information indicatinga stationary region from the stationary region identification unit 120for each image frame. Then, the feature extraction region determinationunit 131 determines, by using a stationary region and a moving regionassociated with information indicating the same image frame, a region ofthe stationary region except for a portion overlapping the movingregion. A region determined by this feature extraction regiondetermination unit 131 is referred to as a feature extraction region.

Herein, a feature extraction region determined by the feature extractionregion determination unit 131 is further described with reference toFIGS. 3 to 6. FIG. 3 is a diagram illustrating one example of an imageframe IF1 captured by a capturing device. It is assumed that astationary object 31 and a moving object 32 are included in the imageframe IF1 illustrated in FIG. 3. FIG. 4 is a diagram illustrating oneexample of a stationary region identified by the stationary regionidentification unit 120 on the image frame IF1 in FIG. 3. The stationaryregion identification unit 120 identifies a stationary region 40 asillustrated in FIG. 4. The stationary region identification unit 120estimates a region of a stationary object by using a plurality of imageframes including the image frame IF1, and identifies the stationaryregion 40 as illustrated in FIG. 4. In this way, the stationary regionidentification unit 120 can also identify a portion that is not capturedin the image frame IF1 in FIG. 3 as a stationary region.

Further, FIG. 5 is a diagram illustrating one example of a moving regionidentified by the moving region identification unit 110 on the imageframe IF1 in FIG. 3. The moving region identification unit 110identifies a moving region 50 as illustrated in FIG. 5. The movingregion identification unit 110 identifies the moving region 50 asillustrated in FIG. 5 by using a plurality of image frames including theimage frame IF1.

Then, the feature extraction region determination unit 131 determines afeature extraction region of the stationary region 40 except for aportion overlapping the moving region 50. FIG. 6 is a diagramillustrating one example of a feature extraction region determined bythe feature extraction region determination unit 131. As illustrated inFIG. 6, a feature extraction region 60 determined by the featureextraction region determination unit 131 is a region of the stationaryregion 40 that does not overlap the moving region 50.

The feature extraction region determination unit 131 suppliesinformation about this feature extraction region 60 to the featureextraction unit 132. The feature extraction region determination unit131 may supply a set of coordinate values indicating the featureextraction region 60 as information about the feature extraction region60 to the feature extraction unit 132, or may extract an image of aportion of the feature extraction region 60 from an image frame andsupply the extracted image (referred to as a partial image) to thefeature extraction unit 132.

The feature extraction unit 132 extracts a feature of the stationaryobject from the partial image being the image of the portion of thefeature extraction region 60 determined by the feature extraction regiondetermination unit 131 in the image frame. Examples of a featureextracted by the feature extraction unit 132 include color. The featureextraction unit 132 may extract a face, a body shape, behavior, and thelike of a person being a stationary object as a feature. The featureextraction unit 132 outputs the extracted feature as the feature of thestationary object.

1.3 Flow of Processing

Next, processing of the image processing device 100 according to thepresent example embodiment is described with reference to FIG. 7. FIG. 7is a flowchart illustrating one example of a flow of the processing ofthe image processing device 100 according to the present exampleembodiment.

The moving region identification unit 110 identifies a moving regionbeing a region, in an image included in a video, of a moving objectincluded in the video (Step S71, hereinafter simply described as S71).

Further, the stationary region identification unit 120 identifies astationary region being a region, in the image, of a stationary objectincluded in the video (S72). Note that, when the stationary regionidentification unit 120 identifies a stationary region and a specificresult of a moving region is not used, Steps S71 and S72 may beperformed simultaneously or performed in reverse order.

Then, the extraction unit 130 extracts a feature from a partial image ofthe image that is a partial image included in the region of thestationary object and is included in a region that does not overlap theregion of the moving object (S73). As described above, the processing ofthe image processing device 100 is finished.

1.4 Effect According to Present Example Embodiment

As described above, the image processing device 100 according to thepresent example embodiment extracts a feature of a stationary objectfrom a partial image of a region that does not overlap a moving object,and can thus prevent a feature of the moving object from being extractedas a feature of the stationary object by mistake. In this way, the imageprocessing device 100 can accurately extract a feature of the stationaryobject. Therefore, when verification of a stationary object detected ina certain period of a video and a stationary object detected in anotherperiod is performed by using the feature extracted in such a manner,accuracy of verification can be increased.

In this way, the image processing device 100 according to the presentexample embodiment can extract information with which a stationaryperson being an object to be tracked can be tracked even whenconcealment and the like occur. Thus, according to the present exampleembodiment, when a stationary person being an object to be tracked isnot included in an image frame by concealment and the like, the samestationary person can be prevented from being determined as a differentperson, and thus an object to be tracked can be tracked without escapingdetection.

2 Second Example Embodiment 2.1 Outline

An image processing device according to a second example embodimentdetermines a feature extraction region, and determines a feature to beextracted, based on a constituent part and an area of a stationaryobject included in this feature extraction region, similarly to theimage processing device in the first example embodiment. In this way, afeature with which verification of a stationary object can be morestably performed can be extracted.

2.2 Configuration

FIG. 8 illustrates one example of a configuration of an image processingdevice 200 according to the present example embodiment. Hereinafter, theimage processing device 200 according to the present example embodimentis described with reference to FIG. 8. Note that, in the present exampleembodiment, the same block as the block described in the first exampleembodiment is denoted by the same reference sign, and detaileddescription thereof is omitted.

The image processing device 200 illustrated in FIG. 8 includes anextraction unit 230 instead of the extraction unit 130 in the imageprocessing device 100 according to the first example embodiment. Asillustrated in FIG. 8, the image processing device 200 includes a movingregion identification unit 110, a stationary region identification unit120, and the extraction unit 230.

The extraction unit 230 determines a feature to be extracted, based on aconstituent part of a stationary object included in a partial image, andextracts the determined feature from an image of a portion of theconstituent part of the partial image. Further, the extraction unit 230determines whether or not to extract a feature according to an area of aregion of the partial image, and, when it is determined that a featureis not to be extracted, the extraction unit 230 associates anotification indicating that extraction of a feature is not performedwith information indicating the image, and outputs the notification.

A function of the extraction unit 230 is further described withreference to FIG. 9. FIG. 9 is a block diagram illustrating one exampleof a configuration of the extraction unit 230 in the present exampleembodiment. As illustrated in FIG. 9, the extraction unit 230 in thepresent example embodiment includes a feature extraction regiondetermination unit 131, a feature extraction unit 132, an extractedfeature determination unit 233, and a storage unit 234.

The extracted feature determination unit 233 determines a feature to beextracted, based on a constituent part of a stationary object includedin a partial image. Herein, a constituent part of a stationary object isset as a part that constitutes a person, such as a head, an arm, a leg,an upper body, and a lower body, and a constituent unit thereof may beany unit. The extracted feature determination unit 233 determines aconstituent part of a stationary object included in a partial image bycomparing the partial image with a model indicating a constituent part.This model is stored in the storage unit 234. Further, information thatindicates a feature to be extracted and is associated with informationindicating a constituent part is stored in the storage unit 234. Forexample, color is associated as information indicating a feature to beextracted with information indicating an upper body, and a face isassociated as information indicating a feature to be extracted withinformation indicating a head.

For example, when only an upper body of a stationary object is includedin a partial image, the extracted feature determination unit 233compares this partial image with the above-mentioned model, anddetermines that a constituent part included in the partial image is anupper body. Then, when information that indicates a feature to beextracted and is associated with information indicating an upper body iscolor, the extracted feature determination unit 233 determines that afeature to be extracted from the partial image of the upper body iscolor. The extracted feature determination unit 233 supplies thedetermined feature to be extracted together with information indicatingthe determined constituent part to the feature extraction unit 132. Inthis way, the feature extraction unit 132 extracts the determinedfeature (color in the above-mentioned example) from the image of theportion of the constituent part of the partial image (partial image ofthe upper body in the above-mentioned example).

Note that, the extracted feature determination unit 233 may determinewhether or not to extract a feature according to a constituent part of astationary object included in a partial image.

Further, the extracted feature determination unit 233 may determinewhether or not to extract a feature according to an area of a featureextraction region determined by the feature extraction regiondetermination unit 131. For example, when an area of a featureextraction region is smaller than a predetermined threshold value, theextracted feature determination unit 233 determines that a feature isnot to be extracted from the feature extraction region. When an area ofa feature extraction region is too small, a feature extracted from sucha feature extraction region may not sufficiently express a feature of astationary object. Therefore, when verification is performed by using afeature extracted from a feature extraction region having an areasmaller than a predetermined threshold value, a correct result may notbe obtained. In other words, a feature extracted from a featureextraction region having an area smaller than a predetermined thresholdvalue may not be a significant feature in verification. In this way,when a feature is extracted from a feature extraction region by usingall image frames and the feature may become unstable, the extractedfeature determination unit 233 controls the feature extraction unit 132in such a way that the feature extraction unit 132 does not extract thefeature that may become unstable. When an area of a feature extractionregion is smaller than a predetermined threshold value, the extractedfeature determination unit 233 supplies information indicating that animage frame including the feature extraction region does not include asignificant feature for a stationary object together with informationindicating the image frame to the feature extraction unit 132.

In this way, the feature extraction unit 132 does not extract a featurefrom the image frame associated with the information indicating that thesignificant feature is not included, and can output that the image framedoes not include the significant feature for the stationary object.

Further, the extracted feature determination unit 233 may determine afeature to be extracted according to an area of a feature extractionregion.

Note that, the extracted feature determination unit 233 may determinepresence or absence of extraction of a feature and a feature to beextracted, based on both of a constituent part of a stationary objectincluded in a partial image and an area of a feature extraction region,or may determine presence or absence of extraction of a feature and afeature to be extracted, based on any one of a constituent part of astationary object included in a partial image or an area of a featureextraction region.

2.3 Flow of Processing

Next, processing of the image processing device 200 according to thepresent example embodiment is described with reference to FIG. 10. FIG.10 is a flowchart illustrating one example of a flow of the processingof the image processing device 200 according to the present exampleembodiment.

The moving region identification unit 110 identifies a moving regionbeing a region, in an image included in a video, of a moving objectincluded in the video (S71). Further, the stationary regionidentification unit 120 identifies a stationary region being a region,in the image, of a stationary object included in the video (S72). Notethat, when the stationary region identification unit 120 identifies astationary region and a specific result of a moving region is not used,Steps S71 and S72 may be performed simultaneously or performed inreverse order.

Then, the feature extraction region determination unit 131 of theextraction unit 130 determines a feature extraction region (S103). Then,the extracted feature determination unit 233 determines whether or notto extract a feature, based on at least one of a constituent part of thestationary object included in a partial image and an area of the featureextraction region (S104). When it is determined that a feature is to beextracted (YES in S104), the extracted feature determination unit 233determines a feature to be extracted, based on at least one of theconstituent part of the stationary object included in the partial imageand the area of the feature extraction region (S105). Then, the featureextraction unit 132 extracts the feature determined in S105 from animage of the feature extraction region (namely, the partial image thatis a partial image included in the region of the stationary object andis included in a region that does not overlap the region of the movingobject) (S106).

Further, when it is determined that a feature is not to be extracted inS104 (NO in S104), the feature extraction unit 132 outputs anotification indicating that an image determined by the featureextraction region determination unit 131 that a feature of thestationary object is not to be extracted does not include a significantfeature for the stationary object (S107).

As described above, the processing of the image processing device 200 isfinished.

2.4 Effect According to Present Example Embodiment

As described above, the image processing device 200 according to thepresent example embodiment determines a feature to be extracted, basedon a constituent part of a stationary object included in a partialimage. In this way, the image processing device 200 can switch a featureto be extracted depending on a situation of concealment and the like ofa stationary object. In this way, a device that performs verification byusing a feature output from the image processing device 200 can performverification by using features extracted from the same constituent part(for example, an upper body) instead of verifying, for example, afeature included in an upper body extracted from a certain image with afeature included in a lower body extracted from another image.Therefore, the image processing device 200 according to the presentexample embodiment can extract a feature with which verification of astationary object can be more stably performed in addition to the effectof the image processing device 100 according to the first exampleembodiment described above.

Further, the image processing device 200 according to the presentexample embodiment determines whether or not to extract a featureaccording to an area of a region of a partial image, and, when it isdetermined that a feature is not to be extracted, the image processingdevice 200 associates a notification indicating that extraction of afeature is not performed with information indicating the image, andoutputs the notification. In this way, the image processing device 200does not extract a feature from the image associated with theinformation indicating that a significant feature is not included, andcan output that the image does not include the significant feature for astationary object. In this way, a device that performs verification byusing a feature output from the image processing device 200 can selectnot to use an image that does not include a significant feature forverification of a stationary object. Therefore, the image processingdevice 200 can provide information that reduces occurrence of falseverification.

3 Third Example Embodiment 3.1 Outline

The image processing devices according to the first and second exampleembodiments may have a configuration different from that of a capturingdevice or may be built in a capturing device. In the present exampleembodiment, the above-described image processing device built in anetwork camera being one example of a capturing device is described.Such a network camera can also extract information with which an objectto be tracked can be tracked even when concealment and the like occur,similarly to the above-described image processing devices.

3.2 Configuration

FIG. 11 illustrates one example of a configuration of a network camera300 according to the present example embodiment. Hereinafter, thenetwork camera 300 according to the present example embodiment isdescribed with reference to FIG. 11. Note that, in the present exampleembodiment, the same block as the block described in the first exampleembodiment is denoted by the same reference sign, and detaileddescription thereof is omitted.

The network camera 300 illustrated in FIG. 11 includes a capturing unit340 in addition to the image processing device 100 according to thefirst example embodiment. As illustrated in FIG. 11, the network camera300 includes a moving region identification unit 110, a stationaryregion identification unit 120, an extraction unit 130, and thecapturing unit 340. Note that, the network camera 300 may be configuredto include the capturing unit 340 in addition to the image processingdevice 200 according to the second example embodiment.

The capturing unit 340 captures a video. The capturing unit 340 performscapturing processing by using, for example, a charge coupled device(CCD) sensor and a complementary metal oxide semiconductor (CMOS)sensor, and generates a video including a plurality of image frames. Thecapturing unit 340 supplies the generated video to the moving regionidentification unit 110 and the stationary region identification unit120. In this way, the moving region identification unit 110 and thestationary region identification unit 120 can perform identification ofa moving region and identification of a stationary region, respectively.

Then, the extraction unit 130 extracts a feature from a partial image ofan image frame that is a partial image included in a region of astationary object and is included in a region that does not overlap aregion of a moving object.

The network camera 300 is a network camera including a communicationfunction, and can thus send a feature extracted by the extraction unit130 to a device that performs verification of a stationary object.

As described above, the network camera 300 according to the presentexample embodiment includes a function similar to that of the imageprocessing devices according to the first and second embodimentsdescribed above. Therefore, the network camera 300 can also extractinformation with which an object to be tracked can be tracked even whenconcealment and the like occur, similarly to the image processingdevices according to the first and second example embodiments describedabove.

4 Fourth Example Embodiment 4.1 Outline

An image processing device according to the present example embodimentincludes a function of causing a display device to display a featureextraction region differently from another region on the display devicein addition to the function of the image processing devices according tothe first and second example embodiments. In this way, the imageprocessing device according to the present example embodiment allows auser to easily grasp which part of an image frame includes a stationaryobject being an object from which a feature is extracted.

4.2 Configuration

FIG. 12 illustrates one example of a configuration of an imageprocessing device 400 according to the present example embodiment.Hereinafter, the image processing device 400 according to the presentexample embodiment is described with reference to FIG. 12. Note that, inthe present example embodiment, the same block as the block described inthe first example embodiment is denoted by the same reference sign, anddetailed description thereof is omitted.

The image processing device 400 illustrated in FIG. 12 includes adisplay control unit 450 in addition to the image processing device 100according to the first example embodiment. As illustrated in FIG. 12,the image processing device 400 includes a moving region identificationunit 110, a stationary region identification unit 120, an extractionunit 130, and the display control unit 450. Note that, the imageprocessing device 400 may be configured to include the display controlunit 450 in addition to the image processing device 200 according to thesecond example embodiment.

A stationary object tracking system 4 including the image processingdevice 400 according to the present example embodiment is described withreference to FIG. 13. FIG. 13 is a diagram illustrating one example of aconfiguration of the stationary object tracking system 4 including theimage processing device 400 according to the present example embodiment.

As illustrated in FIG. 13, the stationary object tracking system 4includes the image processing device 400, a display device 401, and acapturing device 402. The image processing device 400, the displaydevice 401, and the capturing device 402 are communicably connected toone another via a network.

The capturing device 402 captures a video, and supplies the capturedvideo to the image processing device 400. Note that, the capturingdevice 402 may be integrated with the image processing device 400. Inthis case, the image processing device 400 including the capturingdevice 402 includes a function similar to that of the network camera 300described in the third example embodiment.

Further, the display device 401 receives a control signal describedlater being sent from the image processing device 400, and displays ascreen, based on the control signal. The display device 401 is achievedby, for example, a liquid crystal display. Note that, the capturingdevice 402 may be integrated with the image processing device 400.

Referring back to FIG. 12, the display control unit 450 of the imageprocessing device 400 is described. The display control unit 450receives information indicating a feature extraction region being aregion from which a feature is extracted by the extraction unit 130together with an image frame from the extraction unit 130. The displaycontrol unit 450 controls the display device 401 in such a way that thedisplay device 401 displays the feature extraction region being a regionof a partial image to be recognizable from another region.

The display control unit 450 generates a control signal that causes thedisplay device 401 to display, for example, only an image of a portionof the feature extraction region of the received image frame. Then, thedisplay control unit 450 sends the generated control signal to thedisplay device 401. In this way, the display device 401 can display theimage of the portion of the feature extraction region on a screen.

Further, the display control unit 450 may add blurring processing andthe like on an image of the received image frame except for an image ofa portion of the feature extraction region, for example, and generate acontrol signal that causes the display device 401 to display the imageframe after the processing. In this way, only the image of the portionof the feature extraction region is an image without blurring.

Further, the display control unit 450 may generate, for the receivedimage frame, a control signal that causes, for example, a framesurrounding an external portion of the feature extraction region to besuperimposed on the image frame and to be displayed.

In this way, the display control unit 450 may cause the display deviceto display a feature extraction region being a region of a partial imageto be recognizable from another region, and a display method thereof isnot particularly limited.

In this way, the image processing device 400 according to the presentexample embodiment allows a user to easily grasp which part of an imageframe includes a stationary object being an object from which a featureis extracted.

5 Fifth Example Embodiment 5.1 Outline

In the present example embodiment, a stationary object tracking systemincluding the above-described image processing device or theabove-described network camera is described. The stationary objecttracking system according to the present example embodiment includes averification unit that performs verification by using a featureextracted by an extraction unit in addition to the function of the imageprocessing device. This verification unit performs verification of astationary object by using a feature extracted by the extraction unit,and thus the stationary object tracking system according to the presentexample embodiment can track an object to be tracked even whenconcealment and the like occur.

5.2 Configuration

FIG. 14 illustrates one example of a configuration of a stationaryobject tracking system 5 according to the present example embodiment.Hereinafter, the stationary object tracking system 5 according to thepresent example embodiment is described with reference to FIG. 14. Notethat, in the present example embodiment, the same block as the blockdescribed in the each of the above-described example embodiments isdenoted by the same reference sign, and detailed description thereof isomitted.

As illustrated in FIG. 14, the stationary object tracking system 5includes a moving region identification unit 110, a stationary regionidentification unit 120, an extraction unit 230, a capturing unit 340,and a verification unit 511. Note that, the stationary object trackingsystem 5 may include an extraction unit 130 instead of the extractionunit 230. Further, the stationary object tracking system 5 may furtherinclude a display control unit 450.

FIG. 15 illustrates one example of a configuration of a device thatachieves each of the units in the stationary object tracking system 5.As illustrated in FIG. 15, the stationary object tracking system 5includes an image processing device 200, a capturing device 402 thatcaptures a video, and a verification device 501. The image processingdevice 200 includes the moving region identification unit 110, thestationary region identification unit 120, and the extraction unit 230included in the stationary object tracking system 5, similarly to theimage processing device 200 described in the second example embodiment.Further, the capturing device 402 includes the capturing unit 340.Further, the verification device 501 includes the verification unit 511.Note that, the verification device 501 may be integrated with the imageprocessing device 200. Further, the image processing device 200 may beintegrated with the capturing device 402 as in the above-described thirdexample embodiment. Further, the stationary object tracking system 5 maybe configured to further include a display device 401. In this way, aconfiguration of a device included in the stationary object trackingsystem 5 is not particularly limited.

The verification unit 511 performs verification of a stationary objectby using a feature extracted from one or a plurality of images includedin a first period of a video and a feature extracted from one or aplurality of images included in a second period different from the firstperiod. Herein, the period is a period in which a plurality ofcontinuous image frames including the same stationary object arecaptured. Whether or not the same stationary object is included in aplurality of continuous image frames can be checked by using a generaltechnique for detecting a stationary object, and thus detaileddescription thereof is omitted. Further, the verification unit 511determines whether or not the extraction unit 230 extracts a featureaccording to an area of a region of a partial image, and, when it isdetermined that a feature is not to be extracted, the verification unit511 receives a notification indicating that extraction of a feature isnot performed together with information indicating an image frame fromthe extraction unit 230. When the verification unit 511 receives thenotification, the verification unit 511 performs verification of astationary object by using a feature extracted from an image of an imageincluded in the second period except for an image related to thenotification, based on the notification.

The processing of verification performed by the verification unit 511 isfurther described by using FIG. 16. FIG. 16 is a diagram describing theprocessing of the verification unit 511 in the stationary objecttracking system 5 according to the fifth example embodiment.

A horizontal axis in FIG. 16 is a time axis. The capturing unit 340captures a video including a plurality of image frames (F11 to F15, F21to F23, and F31 to F33). It is assumed that one stationary object isincluded in the image frames F11 to F15 and the image frames F31 to F33.Further, it is assumed that a stationary object is not included in theimage frames F21 to F23. As illustrated in FIG. 16, it is assumed that aperiod in which the image frames F11 to F15 are captured is a firstperiod P1, a period in which the image frames F21 to F23 are captured isa period P2 in which a stationary object is not included, and a periodin which the image frames F31 to F33 are captured is a second period P3.

Characters of A, B, and C described in the image frames each represent afeature of a stationary object. For example, the stationary objectincluded in the image frame F11 includes a feature A and a feature B. Inother words, a character described in an image frame represents afeature extracted by the extraction unit 130.

It can be seen from the image frames F11 to F15 captured in the firstperiod P1 that the stationary object included in the image frames F11 toF15 includes the feature A, the feature B, and a feature C. Theextraction unit 230 extracts these features (the feature A, the featureB, or the feature C) from each of the image frames. For example, theextraction unit 230 extracts the feature A and the feature B from theimage frame F11. The verification unit 511 may determine features of thestationary object in the plurality of image frames F11 to F15 includedin the first period P1 as the feature A, the feature B, and the featureC from the features extracted by the extraction unit 230 in such amanner. Further, the verification unit 511 may determine a predeterminednumber of features having a higher extraction frequency of featuresextracted from each of the plurality of image frames F11 to F15 includedin the first period P1 as features for the image frames F11 to F15included in the first period P1.

A stationary object is not included in the image frames F21 to F23included in the period P2 in which a stationary object is not included,and thus the stationary region identification unit 120 does not identifya stationary region in the image frames F21 to F23. Therefore, theextraction unit 230 and the verification unit 511 do not performprocessing on each of the image frames F21 to F23 included in thisperiod P2 in which a stationary object is not included.

Further, it is assumed that a stationary object is included in the imageframes F31 to F33 captured in the second period P3. It is assumed that,at this time, the extraction unit 230 extracts the feature A and thefeature B from the image frames F31 and F33. Further, it is assumed thatan area of a feature extraction region determined from the image frameF32 is smaller than a predetermined threshold value. Therefore, theextraction unit 230 does not extract a feature from the image frame F32,and outputs a notification indicating that the image frame F32 does notinclude a significant feature for the stationary object to theverification unit 511.

When the verification unit 511 receives the feature A and the feature Bbeing the features of the image frame F31 from the extraction unit 230,the verification unit 511 performs verification of the stationary objectby using the features extracted from each of the image frames F11 to F15included in the first period P1 and the features extracted from theimage frame F31 by using the feature A and the feature B. Note that, theverification unit 511 may perform verification of the stationary objectby using the features for the image frames F11 to F15 determined byusing the features extracted from each of the image frames F11 to F15included in the first period P1 and the features extracted from theimage frame F31.

The feature A and the feature B coincide with the features of thestationary object included in the image frames F11 to F15, and thus theverification unit 511 determines that the stationary object included inthe image frame F31 is the same as the stationary object included ineach of the image frames in the first period P1. The verification unit511 may output a verification result to, for example, the displaydevice.

Further, when the verification unit 511 receives the notificationindicating that the image frame F32 does not include the significantfeature for the stationary object from the extraction unit 230, theverification unit 511 does not perform verification of the stationaryobject on this image frame F32. Then, when the verification unit 511receives a feature of the stationary object included in a next imageframe (the image frame F33) from the extraction unit 230, theverification unit 511 performs verification of the stationary objectincluded in the image frame F33 and the stationary object included ineach of the image frames in the first period P1 by using the feature. Inthis way, the verification unit 511 performs verification of thestationary object by using the feature extracted from the image frames(the image frame F31 and the image frame F33) included in the secondperiod P3 other than the image frame (the image frame F32 in thisexample) related to the received notification.

5.3 Flow of Processing

Next, processing of the verification unit 511 in the stationary objecttracking system 5 according to the present example embodiment isdescribed with reference to FIG. 17. FIG. 17 is a flowchart illustratingone example of a flow of the processing of the verification unit 511 inthe stationary object tracking system 5 according to the present exampleembodiment. The processing illustrated in FIG. 17 is performed on eachimage frame.

As illustrated in FIG. 17, the verification unit 511 checks whether ornot to have received a feature for a certain image frame from theextraction unit 230 (S171). When a feature has not been received (NO inS171), S171 is repeated until a feature is received next. “When afeature has not been received” represents when a stationary object isnot included in an image frame being an object to be processed, orrepresents when a notification indicating that the image frame does notinclude a significant feature for a stationary object has been receivedfrom the extraction unit 230.

When a feature has been received (YES in S171), the verification unit511 checks whether or not a feature of a stationary object is extractedin a period different from a period including an image frame being anobject to be processed before a capturing time of the image frame(S172). In a case of the video illustrated in FIG. 16, when an imageframe being an object to be processed is any of the image frames F11 toF15, there is no period in which a feature of the stationary object isextracted before a period (the first period P1) including the imageframe. Thus, in such a case, NO is made in S172, and the verificationunit 511 accumulates the feature extracted for the image frame being theobject to be processed inside the verification unit 511, in a storageunit, which is not illustrated, or the like (S173).

When a feature of a stationary object is extracted in a period differentfrom a period including an image frame being an object to be processedbefore a capturing time of the image frame (YES in S172), the processingproceeds to Step S174. In a case of the video illustrated in FIG. 16,when an image frame being an object to be processed is any of the imageframes F31 to F33, there is the first period P1 being a period in whicha feature of a stationary object is extracted before a period (thesecond period P3) including the image frame. Thus, in such a case, YESis made in S172, and the verification unit 511 verifies, by using thefeature extracted for the image frame being the object to be processed,the stationary object included in the image frame with the stationaryobject included in the image frame captured in the first period P1(S174).

As described above, in the stationary object tracking system 5 accordingto the present example embodiment, the verification unit 511 performsverification of a stationary object by using a feature extracted by theextraction unit 230. As described in the second example embodiment, theextraction unit 230 extracts a feature of a stationary object from apartial image of a region that does not overlap a moving object. Thus, afeature extracted by the extraction unit 230 does not include a featureof a moving object, and a feature of a stationary object is accuratelyextracted. Therefore, the verification unit 511 performs verification ofa stationary object detected in a certain period of a video and astationary object detected in another period by using a featureextracted in such a manner, and thus the stationary object trackingsystem 5 according to the present example embodiment can increaseaccuracy of verification. As a result, the stationary object trackingsystem 5 can detect the number of times of stationary states of astationary object included in the video without continuously trackingthe stationary object throughout the video. In this way, the stationaryobject tracking system 5 can efficiently detect such suspicious behaviorthat the same person stays stationary for a plurality of times.

In this way, even when a stationary person being an object to be trackedis not included in an image frame by concealment and the like, thestationary object tracking system 5 according to the present exampleembodiment can verify the same stationary person by using the samefeature, and can thus track the object to be tracked without failing indetection.

6 With Regard to Hardware Configuration

Each of components of each of devices represents a block of a functionalunit in each of the example embodiments of the present disclosure. Apart or the whole of each of the components of each of the devices isachieved by, for example, any combination of an information processingdevice 900 as illustrated in FIG. 18 and a program. FIG. 18 is a blockdiagram illustrating one example of a hardware configuration of theinformation processing device 900 that achieves each of the componentsof each of the devices. As one example, the information processingdevice 900 includes configurations as follows.

-   -   a central processing unit (CPU) 901    -   a read only memory (ROM) 902    -   a random access memory (RAM) 903    -   a program 904 loaded into the RAM 903    -   a storage device 905 that stores the program 904    -   a drive device 907 that reads and writes a recording medium 906    -   a communication interface 908 connected to a communication        network 909    -   an input-output interface 910 that inputs and outputs data    -   a bus 911 that connects components

Each of the components of each of the devices in each of the exampleembodiments is achieved by the CPU 901 acquiring and executing theprogram 904 that achieves a function thereof. The program 904 thatachieves a function of each of the components of each of the devices ispreviously stored in the storage device 905 and the RAM 903, forexample, and is read by the CPU 901 as necessary. Note that, the program904 may be supplied to the CPU 901 via the communication network 909, ormay be previously stored in the recording medium 906 and read by thedrive device 907 to be supplied to the CPU 901.

A method of achieving each of the devices has various modificationexamples. For example, each of the devices may be achieved by anycombination of each separate information processing device 900 for eachcomponent and a program. Alternatively, a plurality of componentsprovided in each of the devices may be achieved by any combination ofone information processing device 900 and a program.

A part or the whole of each of the components of each of the devices maybe achieved by another general-purpose or special circuit, a processor,and the like, or achieved by a combination thereof. The circuit, theprocessor, and the like may be formed by a single chip or formed by aplurality of chips connected to one another via a bus.

A part or the whole of each of the components of each of the devices maybe achieved by a combination of the above-described circuit and the likeand a program.

When a part or the whole of each of the components of each of thedevices is achieved by a plurality of information processing devices,circuits, or the like, the plurality of information processing devices,circuits, or the like may be arranged in a concentrated manner or adistributed manner. For example, the information processing devices, thecircuits, and the like may be achieved as a form in which each isconnected via a communication network, such as a client server system ora cloud computing system.

Note that, each of the example embodiments described above is a suitableexample embodiment in the present disclosure, and a range of the presentdisclosure is not limited only to each of the above-mentioned exampleembodiments. A person skilled in the art can modify and substitute eachof the above-mentioned example embodiments in a range without departingfrom the purpose of the present disclosure, and can construct anembodiment subjected to various modifications. Furthermore, a newtechnical feature can be formed by combining technical means disclosedin the example embodiments.

7 Supplementary Note

A part or the whole of the above-mentioned example embodiments may alsobe described in Supplementary Notes below, which is not limited thereto.

[Supplementary Note 1]

An image processing device, including:

a moving region identification means for identifying a region, in animage included in a video, of a moving object included in the video;

a stationary region identification means for identifying a region, inthe image, of a stationary object included in the video; and

an extraction means for extracting a feature from a partial image of theimage that is a partial image included in a region of the stationaryobject and is included in a region that does not overlap a region of themoving object.

[Supplementary Note 2]

The image processing device according to Supplementary Note 1, wherein

the extraction means determines a feature to be extracted, based on aconstituent part of a stationary object included in the partial image,and extracts the determined feature from an image of a portion of aconstituent part of the partial image.

[Supplementary Note 3]

The image processing device according to Supplementary Note 1 or 2,wherein

the extraction means determines whether or not to extract a featureaccording to an area of a region of the partial image, and, when it isdetermined that a feature is not to be extracted, the extraction meansassociates a notification indicating that extraction of a feature is notperformed with information indicating the image, and outputs thenotification.

[Supplementary Note 4]

The image processing device according to any one of Supplementary Notes1 to 3, further including

a display control means for controlling a display device in such a wayas to display a region of the partial image to be recognizable fromanother region.

[Supplementary Note 5]

A stationary object tracking system, including:

the image processing device according to any one of Supplementary Notes1 to 4;

a capturing means for capturing the video; and

a verification means for performing verification of a stationary objectincluded in the video by using a feature extracted by the extractionmeans.

[Supplementary Note 6]

The stationary object tracking system according to Supplementary Note 5,wherein

the verification means performs verification of the stationary object byusing a feature extracted from one or a plurality of images included ina first period of the video and a feature extracted from one or aplurality of images included in the second period different from thefirst period.

[Supplementary Note 7]

The stationary object tracking system according to Supplementary Note 6,wherein

the extraction means determines whether or not to extract a featureaccording to an area of a region of the partial image, and, when it isdetermined that a feature is not to be extracted, the extraction meansassociates a notification indicating that extraction of a feature is notperformed with information indicating the image, and outputs thenotification to the verification means, and

the verification means performs verification of the stationary object byusing a feature extracted from an image of an image included in thesecond period except for an image related to the notification, based onthe notification.

[Supplementary Note 8]

An image processing method, including:

identifying a region, in an image included in a video, of a movingobject included in the video;

identifying a region, in the image, of a stationary object included inthe video; and

extracting a feature from a partial image of the image that is a partialimage included in a region of the stationary object and is included in aregion that does not overlap a region of the moving object.

[Supplementary Note 9]

The image processing method according to Supplementary Note 8, furtherincluding

determining a feature to be extracted, based on a constituent part of astationary object included in the partial image, and extracting thedetermined feature from an image of a portion of a constituent part ofthe partial image.

[Supplementary Note 10]

A stationary object tracking method, including:

capturing a video;

identifying a region, in an image included in the video, of a movingobject included in the video;

identifying a region, in the image, of a stationary object included inthe video;

extracting a feature from a partial image of the image that is a partialimage included in a region of the stationary object and is included in aregion that does not overlap a region of the moving object; and

performing verification of a stationary object included in the video byusing a feature extracted by the extraction means.

[Supplementary Note 11]

The stationary object tracking method according to Supplementary Note10, further including

determining a feature to be extracted, based on a constituent part of astationary object included in the partial image, and extracting thedetermined feature from an image of a portion of a constituent part ofthe partial image.

[Supplementary Note 12]

A computer-readable non-temporary recording medium that records aprogram causing a computer to perform:

processing of identifying a region, in an image included in a video, ofa moving object included in the video;

processing of identifying a region, in the image, of a stationary objectincluded in the video; and

processing of extracting a feature from a partial image of the imagethat is a partial image included in a region of the stationary objectand is included in a region that does not overlap a region of the movingobject.

[Supplementary Note 13]

The recording medium according to Supplementary Note 12, wherein

the processing of extracting the feature determines a feature to beextracted, based on a constituent part of a stationary object includedin the partial image, and extracts the determined feature from an imageof a portion of a constituent part of the partial image.

REFERENCE SIGNS LIST

4, 5 Stationary object tracking system

100 Image processing device

110 Moving region identification unit

120 Stationary region identification unit

130 Extraction unit

131 Feature extraction region determination unit

132 Feature extraction unit

200 Image processing device

230 Extraction unit

233 Extracted feature determination unit

234 Storage unit

300 Network camera

340 Capturing unit

400 Image processing device

401 Display device

402 Capturing device

450 Display control unit

501 Verification device

511 Verification unit

What is claimed is:
 1. An image processing device, comprising: at leastone memory storing instructions; and at least one processor connected tothe at least one memory and configured to execute the instructions to:identify a region, in an image included in a video, of a moving objectincluded in the video; identify a region, in the image, of a stationaryobject included in the video; determine whether or not to extract afeature according to an area of a region of a partial image of the imagethat is a partial image included in the region of the stationary objectand is included in a region that does not overlap the region of themoving object; when it is determined that a feature is to be extracted,extract the feature from the partial image of the image; when it isdetermined that a feature is not to be extracted, associate anotification indicating that extraction of a feature is not performedwith information indicating the image; and output the notification. 2.The image processing device according to claim 1, wherein the at leastone processor is configured to execute the instructions to: determine afeature to be extracted, based on a constituent part of a stationaryobject included in the partial image; and extract the determined featurefrom an image of a portion of a constituent part of the partial image.3. The image processing device according to claim 1, wherein the atleast on processor is configured to execute the instructions to controla display device in such a way as to display a region of the partialimage to be recognizable from another region.
 4. A stationary objecttracking system, comprising: the image processing device according toclaim 1; a camera capturing the video; and verification device includingat least one memory storing instructions; and at least one processorconnected to the at least one memory and configured to execute theinstructions to perform verification of a stationary object included inthe video by using a feature extracted by the extraction unit.
 5. Thestationary object tracking system according to claim 4, wherein the atleast on processor included in the verification device is configured toexecute the instructions to perform verification of the stationaryobject by using a feature extracted from one or a plurality of imagesincluded in a first period of the video and a feature extracted from oneor a plurality of images included in the second period different fromthe first period.
 6. The stationary object tracking system according toclaim 5, wherein when it is determined that a feature is not to beextracted, the at least one processor included in the image processingdevice is configured to execute the instructions to: associate anotification indicating that extraction of a feature is not performedwith information indicating the image; and output the notification tothe verification unit, and the at least one processor included in theverification device is configured to execute the instruction to performverification of the stationary object by using a feature extracted froman image of an image included in the second period except for an imagerelated to the notification, based on the notification.
 7. An imageprocessing method, comprising: identifying a region, in an imageincluded in a video, of a moving object included in the video;identifying a region, in the image, of a stationary object included inthe video; determining whether or not to extract a feature according toan area of a region of a partial image of the image that is a partialimage included in the region of the stationary object and is included ina region that does not overlap the region of the moving object; when itis determined that a feature is to be extracted, extracting the featurefrom the partial image of the image; when it is determined that afeature is not to be extracted, associating a notification indicatingthat extraction of a feature is not performed with informationindicating the image; and outputting the notification.
 8. The imageprocessing method according to claim 7, further comprising determining afeature to be extracted, based on a constituent part of a stationaryobject included in the partial image, and extracting the determinedfeature from an image of a portion of a constituent part of the partialimage.
 9. A non-transitory computer-readable medium that records aprogram causing a computer to perform: processing of identifying aregion, in an image included in a video, of a moving object included inthe video; processing of identifying a region, in the image, of astationary object included in the video; processing of determiningwhether or not to extract a feature according to an area of a region ofa partial image of the image that is a partial image included in theregion of the stationary object and is included in a region that doesnot overlap the region of the moving object; processing of, when it isdetermined that a feature is to be extracted, extracting the featurefrom the partial image of the image; processing of, when it isdetermined that a feature is not to be extracted, associating anotification indicating that extraction of a feature is not performedwith information indicating the image; and processing of outputting thenotification.